CN219422307U - Remote control's electrical heating shoe-pad - Google Patents

Abstract

The utility model discloses a remote control electric heating insole which comprises an insole body, a battery, a control module, a charging interface, a power line, a heating component and a protection structure. According to the utility model, the protective structure is arranged, the battery is arranged in the protective frame and the protective cover, and the clamping blocks can prop against the battery, so that the battery has a high stability effect in the protective frame, when the insole body is stressed and compressed, the protective frame and the protective cover can support the battery to prevent the battery from being extruded, when the insole body is deformed, the protective frame and the protective cover can slightly bend but cannot excessively bend, the battery cannot deform when being stressed, and the protection of the battery is achieved, and the battery is prevented from being extruded or deformed to be damaged by stress.

Description

Remote control's electrical heating shoe-pad

Technical Field

The utility model relates to the field of insoles, in particular to a remote control electric heating insole.

Background

The walking is the most basic movement form of a human body, and the feet bear the weight of the whole body and the load caused by movement in the walking process, so the insole almost forms an article to be used by everyone, and although the existence sense of the insole is not high, the insole has a small effect, and the electric heating insole is one of the insoles, can generate heat and keep constant temperature to resist severe cold, and is suitable for middle-aged and elderly people with frequent cold hands and feet, numbness of the body and unstable blood pressure.

The prior patent number: CN204259955U, which discloses an electrically heated insole, belongs to the insole field, comprising an insole main body; the electric heating insole also comprises an electric heating device, wherein the electric heating device comprises a host machine and a heating plate, and the host machine is electrically connected with the heating plate; the insole body is provided with a fixing groove for fixing the electric heating device. The electric heating insole is provided with an electric heating device, so that electric heating is realized.

The above-mentioned patents or existing electrically heated insoles have the following problems:

the conventional electric heating insoles are generally provided with batteries for supplying power and storing electricity, and a user may squeeze the batteries when wearing the electric heating insoles, and meanwhile, the electric heating insoles deform when walking, and the batteries are inconvenient to protect, so that the batteries may be damaged due to stress deformation.

Disclosure of Invention

Therefore, in order to solve the above-mentioned shortcomings, the present utility model provides a remote-controlled electrically heated insole.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a remote control's electrical heating shoe-pad, includes the shoe-pad body, the inside battery that is equipped with of shoe-pad body, the one end of battery is equipped with control module, control module one end is equipped with the interface that charges, the battery other end is equipped with the power cord, the power cord is connected with the heating element, the inside protective structure that is equipped with of shoe-pad body, protective structure includes the lug, the battery surface is located to the lug, the inside protective frame that is equipped with of shoe-pad body, the inside fixture block that is equipped with of protective frame, the protective frame upper end is equipped with the protecting cover, the protective frame lower extreme is equipped with buffer structure.

Preferably, the two ends of the battery are provided with the protruding blocks, and one end of the protruding block is provided with at least six protruding blocks.

Preferably, two clamping blocks are in a group, a clamping groove is formed between the two clamping blocks, and the clamping groove is identical to the protruding block in shape.

Preferably, when the battery is placed in the protective frame, the clamping block is attached to the side wall of the battery.

Preferably, the top end surface of the protection frame is provided with grooves, the number of the grooves is not less than four, the front end of the protection frame is provided with functional grooves, and the rear end of the protection frame is provided with a wire groove.

Preferably, the connection part of the bottom end surface of the protecting cover and the groove is provided with convex columns, and the quantity of the convex columns is the same as that of the grooves.

Preferably, the buffer structure comprises a buffer column, the buffer column is arranged on the bottom end face of the protection frame, and a base plate is arranged at the lower end of the buffer column.

Preferably, the buffer columns are fixed on the top surface of the base plate in a staggered distribution, and the interval between each buffer column is not less than three millimeters.

The utility model has the beneficial effects that:

according to the utility model, the protective structure is arranged, the battery is arranged in the protective frame and the protective cover, and the clamping blocks can prop against the battery, so that the battery has a high stability effect in the protective frame, when the insole body is stressed and compressed, the protective frame and the protective cover can support the battery to prevent the battery from being extruded, when the insole body is deformed, the protective frame and the protective cover can slightly bend but cannot excessively bend, the battery cannot deform when being stressed, and the protection of the battery is achieved, and the battery is prevented from being extruded or deformed to be damaged by stress.

Further, through being equipped with buffer structure, when the shoe-pad body takes place the atress compression, the buffer post can atress compression produce elasticity, and the buffer post is used for reducing the vibrations of protecting the frame, still promotes the elasticity of shoe-pad body simultaneously, and when protecting the frame and taking place the phenomenon that one end wane one end was pushed down under the effect, the buffer post can follow the motion of protecting the frame and stretch or compress for the protecting the frame and can follow the effect and move about, can't incline and take place to break when avoiding protecting the frame atress.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic cross-sectional view of the present utility model;

FIG. 3 is a schematic view of the protective structure of the present utility model;

FIG. 4 is a schematic view of the protective cover of the present utility model in an open configuration;

FIG. 5 is a schematic diagram of the buffer structure of the present utility model.

Wherein: the insole comprises an insole body-1, a battery-2, a control module-21, a charging interface-3, a power line-4, a heating component-5, a protection structure-6, a bump-61, a protection frame-62, a clamping block-63, a protection cover-64, a buffer structure-65, a groove-641, a convex column-642, a buffer column-651 and a base plate-652.

Detailed Description

In order to further explain the technical scheme of the utility model, the following is explained in detail through specific examples.

Referring to fig. 1 and 2, the utility model provides a remote control electric heating insole, which comprises an insole body 1, wherein the insole body 1 is made of latex material, so that the insole body 1 has softer and deodorant effects, of course, hundreds of ventilation holes can be formed in the insole body 1, a battery 2 is arranged in the heel of the insole body 1, the battery 2 is spliced with a control module 21, the battery 2 is electrically connected with the control module 21, the control module 21 can be connected with a mobile phone terminal through the internet of things so as to realize remote control through the mobile phone, the control module 21 can realize three-gear temperature regulation through mobile phone APP control, an infrared signal receiver is built in the control module 21, the control module 21 can realize remote switch and temperature regulation through infrared control, a charging interface 3 is arranged at the front section of the control module 21, a charging power cord is connected with a charging power cord for charging the battery 2, the battery 2 is connected with one end of the power cord 4, the other end of the power cord 4 is connected with a heating component 5, the heating component 5 adopts a graphene heating sheet, and the graphene heating sheet is a common technology and is used in this way, so as to realize the electric connection of the battery 2 and the heating component 5 with the heating component 5, and the three-gear temperature regulation are arranged in the insole 1, and the insole 1 is provided with a sole inner protection structure.

Referring to fig. 2, 3 and 4, the present utility model provides a remote-controlled electric heating insole, the protection structure 6 includes protrusions 61, the protrusions 61 are adhered to the left and right end surfaces of the battery 2, six protrusions 61 at the left and right ends, of course, seven protrusions, eight protrusions, etc., and herein, without limitation, the protection frame 62 is embedded in the insole body 1 for installing the battery 2;

the front end of the protection frame 62 is provided with a functional groove 621, the functional groove 621 is used for placing the charging interface 3, the rear end of the protection frame 62 is provided with a wire groove 622 used for placing the power line 4, and the protection frame 62 is made of hard plastic material, so that the protection frame has the effects of high toughness and high protection performance;

the clamping blocks 63 are arranged at the left end and the right end of the inside of the protective frame 62, six groups of clamping blocks 63 are arranged at the left end and the right end, each group of clamping blocks 63 consists of two clamping blocks 63, a clamping groove is formed between the two clamping blocks 63, the shape of the clamping groove is identical to that of the convex block 61, grooves 641 are formed in the top end of the protective frame 62, and the number of the grooves 641 is four.

Referring to fig. 5, the utility model provides a remote-controlled electric heating insole, the buffer structure 65 comprises a buffer post 651, the upper end of the buffer post 651 is adhered to the bottom end surface of the protection frame 62, and the lower end of the buffer post 651 is adhered to the top end surface of a pad 652; the buffer columns 651 are fixed to the top end surface of the pad 652 in a staggered manner, and the interval between the buffer columns 651 is 3mm, but the interval between the buffer columns 651 may be 3.5mm, 4mm, or the like, and is not limited thereto.

The working principle is as follows:

the user places insole body 1 in the middle of the heat preservation shoes to place in the inside sole surface of heat preservation shoes, when the user dresses the heat preservation shoes, insole body 1 can pad in user's sole department, and the user takes place the instruction through the cell-phone terminal, and control module 21 receives the instruction and control heating element 5 and battery 2 are electrified mutually, and the electric current passes through power cord 4 transmission, and heating element 5 can produce heat after the circular telegram, and heat transfer is to insole body 1, thereby heats insole body 1, and the transmission is on user's foot after the heating.

When the battery 2 is installed inside the protection frame 62, the lug 61 on the surface of the battery 2 is embedded into the clamping groove between the clamping blocks 63, the installation of the battery 2 is realized, when the battery 2 is placed inside the protection frame 62, the clamping blocks 63 can be attached to the surface of the battery 2, and therefore the stability of the battery 2 inside the protection frame 62 is improved, the battery 2 can not shake, the protection cover 64 is placed on the top end surface of the protection frame 62 after the battery is installed, the convex column 642 can be inserted into the groove 641, the inserted rear protection cover 64 is fixed, the protection cover 64 and the protection frame 62 can protect the battery 2, when the insole body 1 is stressed and compressed, the protection frame 62 and the protection cover 64 can support, and the battery 2 is prevented from being extruded, the battery 2 is installed inside the protection frame 62 and the protection cover 64, when the insole body 1 deforms, the protection frame 62 and the protection cover 64 can be bent excessively, the battery 2 can not deform under stress, the protection of the battery 2 is realized, and the battery 2 is prevented from being extruded or deformed slightly and damaged under stress.

The cushion post 651 of the lower extreme of the protection frame 62 can support the protection frame 62, the backing plate 652 is used for supporting and fixing the function of the cushion post 651, when the insole body 1 is subjected to stress compression, the cushion post 651 can be subjected to stress compression to generate elasticity, the elasticity generated by the cushion post 651 can cushion the protection frame 62 and is used for reducing vibration of the protection frame 62, meanwhile, the elasticity of the insole body 1 is also improved, when the insole body 1 is deformed to cause one end of the protection frame 62 to lift up and one end to press down, the cushion post 651 of the lifting part of the protection frame 62 can be subjected to stress tension to generate elasticity, and the cushion post 651 of the pressing part of the protection frame 62 can be subjected to stress compression to generate elasticity, so that the protection frame 62 can also move along with the action of force, and breakage caused by incapability of tilting when the protection frame 62 is avoided.

The utility model provides a remote control electric heating insole, which is provided with a protection structure 6, wherein after a battery 2 is arranged in a protection frame 62 and a protection cover 64, a clamping block 63 can prop against the battery 2, so that the battery 2 has a high stability effect when the protection frame 62 is internally stressed, when an insole body 1 is stressed and compressed, the protection frame 62 and the protection cover 64 can support the battery 2 to prevent the battery 2 from being extruded, when the insole body 1 is deformed, the protection frame 62 and the protection cover 64 can slightly bend but not excessively bend, so that the battery 2 cannot deform when being stressed, and the protection of the battery 2 is realized, and the battery 2 is prevented from being extruded or deformed to be damaged by stress; through being equipped with buffer structure 65, when shoe-pad body 1 takes place the atress compression, buffer post 651 can atress compression produce elasticity, and buffer post 651 is used for reducing the vibrations of protect frame 62, still promotes the elasticity of shoe-pad body 1 simultaneously, and when protect frame 62 takes place the phenomenon that one end perk one end pushed down under the effect, buffer post 651 can follow the motion of protect frame 62 and tensile or compress for protect frame 62 can follow the effect and move about, can't incline and take place to break when avoiding protect frame 62 atress.

The foregoing is merely a preferred example of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (8)

1. The utility model provides a remote control's electrical heating shoe-pad, includes shoe-pad body (1), shoe-pad body (1) is inside to be equipped with battery (2), the one end of battery (2) is equipped with control module (21), control module (21) one end is equipped with charging interface (3), the other end of battery (2) is equipped with power cord (4), power cord (4) are connected with heating element (5);

the method is characterized in that: still include protective structure (6), the inside protective structure (6) that is equipped with of shoe-pad body (1), protective structure (6) are including lug (61), battery (2) surface is located to lug (61), the inside protective frame (62) that is equipped with of shoe-pad body (1), the inside fixture block (63) that is equipped with of protective frame (62), protective frame (62) upper end is equipped with protecting cover (64), protective frame (62) lower extreme is equipped with buffer structure (65).

2. A remotely controlled electrically heated insole as claimed in claim 1, wherein: the battery (2) is characterized in that two ends of the battery are provided with lugs (61), and one end of each lug (61) is provided with at least six lugs.

3. A remotely controlled electrically heated insole as claimed in claim 2, wherein: the clamping blocks (63) are formed into a group, a clamping groove is formed between the two clamping blocks (63), and the clamping groove is identical to the protruding block (61) in shape.

4. A remotely controlled electrically heated insole as claimed in claim 3, wherein: when the battery (2) is placed in the protective frame (62), the clamping blocks (63) are attached to the side walls of the battery (2).

5. A remotely controlled electrically heated insole as claimed in claim 1, wherein: the top end face of the protection frame (62) is provided with grooves (641), the number of the grooves (641) is not less than four, the front end of the protection frame (62) is provided with functional grooves (621), and the rear end of the protection frame (62) is provided with a wire groove (622).

6. A remotely controlled electrically heated insole as in claim 5, wherein: the connection part of the bottom end surface of the protecting cover (64) and the groove (641) is provided with convex columns (642), and the number of the convex columns (642) is the same as that of the groove (641).

7. A remotely controlled electrically heated insole as claimed in claim 1, wherein: the buffer structure (65) comprises a buffer column (651), the buffer column (651) is arranged on the bottom end face of the protection frame (62), and a base plate (652) is arranged at the lower end of the buffer column (651).

8. A remotely controlled electrically heated insole as claimed in claim 7, wherein: the buffer columns (651) are fixed on the top end surface of the base plate (652) in a staggered mode, and the interval between each two buffer columns (651) is not less than three millimeters.